SPRUI33H November 2015 – June 2024 TMS320F280040-Q1 , TMS320F280040C-Q1 , TMS320F280041 , TMS320F280041-Q1 , TMS320F280041C , TMS320F280041C-Q1 , TMS320F280045 , TMS320F280048-Q1 , TMS320F280048C-Q1 , TMS320F280049 , TMS320F280049-Q1 , TMS320F280049C , TMS320F280049C-Q1
32-Bit Floating-Point Multiply and Accumulate with Parallel Move
MR3 | floating-point destination/source register MR3 for the add operation |
MR2 | CLA floating-point source register MR2 for the add operation |
MRd | CLA floating-point destination register (MR0 to MR3) for the multiply operation MRd cannot be the same register as MRa |
MRe | CLA floating-point source register (MR0 to MR3) for the multiply operation |
MRf | CLA floating-point source register (MR0 to MR3) for the multiply operation |
MRa | CLA floating-point destination register for the MMOV32 operation (MR0 to MR3). MRa cannot be MR3 or the same register as MRd. |
mem32 | 32-bit source for the MMOV32 operation |
LSW: mmmm mmmm mmmm mmmm
MSW: 0011 ffee ddaa addr
Multiply and accumulate the contents of floating-point registers and move from register to memory. The destination register for the MMOV32 cannot be the same as the destination registers for the MMACF32.
MR3 = MR3 + MR2;
MRd = MRe * MRf;
MRa = [mem32];
The destination registers for the MMACF32 and the MMOV32 must be unique. That is, MRa cannot be MR3 and MRa cannot be the same register as MRd.
This instruction modifies the following flags in the MSTF register:
Flag | TF | ZF | NF | LUF | LVF |
---|---|---|---|---|---|
Modified | No | Yes | Yes | Yes | Yes |
The MSTF register flags are modified as follows:
MMOV32 sets the NF and ZF flags as follows:
NF = MRa(31);
ZF = 0;
if(MRa(30:23) == 0) { ZF = 1; NF = 0; }
MMACF32 and MMOV32 complete in a single cycle.
; Perform 5 multiply and accumulate operations:
;
; X and Y are 32-bit floating-point arrays
;
; 1st multiply: A = X0 * Y0
; 2nd multiply: B = X1 * Y1
; 3rd multiply: C = X2 * Y2
; 4th multiply: D = X3 * Y3
; 5th multiply: E = X3 * Y3
;
; Result = A + B + C + D + E
;
_Cla1Task1:
MMOVI16 MAR0, #_X ; MAR0 points to X array
MMOVI16 MAR1, #_Y ; MAR1 points to Y array
MNOP ; Delay for MAR0, MAR1 load
MNOP ; Delay for MAR0, MAR1 load
; <-- MAR0 valid
MMOV32 MR0, *MAR0[2]++ ; MR0 = X0, MAR0 += 2
; <-- MAR1 valid
MMOV32 MR1, *MAR1[2]++ ; MR1 = Y0, MAR1 += 2
MMPYF32 MR2, MR0, MR1 ; MR2 = A = X0 * Y0
|| MMOV32 MR0, *MAR0[2]++ ; In parallel MR0 = X1, MAR0 += 2
MMOV32 MR1, *MAR1[2]++ ; MR1 = Y1, MAR1 += 2
MMPYF32 MR3, MR0, MR1 ; MR3 = B = X1 * Y1
|| MMOV32 MR0, *MAR0[2]++ ; In parallel MR0 = X2, MAR0 += 2
MMOV32 MR1, *MAR1[2]++ ; MR1 = Y2, MAR2 += 2
MMACF32 MR3, MR2, MR2, MR0, MR1 ; MR3 = A + B, MR2 = C = X2 * Y2
|| MMOV32 MR0, *MAR0[2]++ ; In parallel MR0 = X3
MMOV32 MR1, *MAR1[2]++ ; MR1 = Y3 M
MACF32 MR3, MR2, MR2, MR0, MR1 ; MR3 = (A + B) + C, MR2 = D = X3 * Y3
|| MMOV32 MR0, *MAR0 ; In parallel MR0 = X4
MMOV32 MR1, *MAR1 ; MR1 = Y4
MMPYF32 MR2, MR0, MR1 ; MR2 = E = X4 * Y4
|| MADDF32 MR3, MR3, MR2 ; in parallel MR3 = (A + B + C) + D
MADDF32 MR3, MR3, MR2 ; MR3 = (A + B + C + D) + E
MMOV32 @_Result, MR3 ; Store the result
MSTOP ; end of task
; sum = X0*B0 + X1*B1 + X2*B2 + Y1*A1 + Y2*B2
;
; X2 = X1
; X1 = X0
; Y2 = Y1 ; Y1 = sum
;
_ClaTask2:
MMOV32 MR0, @_B2 ; MR0 = B2
MMOV32 MR1, @_X2 ; MR1 = X2
MMPYF32 MR2, MR1, MR0 ; MR2 = X2*B2
|| MMOV32 MR0, @_B1 ; MR0 = B1
MMOVD32 MR1, @_X1 ; MR1 = X1, X2 = X1
MMPYF32 MR3, MR1, MR0 ; MR3 = X1*B1
|| MMOV32 MR0, @_B0 ; MR0 = B0
MMOVD32 MR1, @_X0 ; MR1 = X0, X1 = X0
; MR3 = X1*B1 + X2*B2, MR2 = X0*B0
; MR0 = A2
MMACF32 MR3, MR2, MR2, MR1, MR0
|| MMOV32 MR0, @_A2 M
MOV32 MR1, @_Y2 ; MR1 = Y2
; MR3 = X0*B0 + X1*B1 + X2*B2, MR2 = Y2*A2
; MR0 = A1
MMACF32 MR3, MR2, MR2, MR1, MR0
|| MMOV32 MR0, @_A1
MMOVD32 MR1,@_Y1 ; MR1 = Y1, Y2 = Y1
MADDF32 MR3, MR3, MR2 ; MR3 = Y2*A2 + X0*B0 + X1*B1 + X2*B2
|| MMPYF32 MR2, MR1, MR0 ; MR2 = Y1*A1
MADDF32 MR3, MR3, MR2 ; MR3 = Y1*A1 + Y2*A2 + X0*B0 + X1*B1 + X2*B2
MMOV32 @_Y1, MR3 ; Y1 = MR3
MSTOP ; end of task